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Researchers worked out how to efficiently prepare wave functions for the lithium-6 nuclear ground state and implemented those on quantum hardware.
By reanalyzing the distribution of active protons in nuclei, researchers found a possible solution to a particle physics puzzle involving quarks.
If observed, neutrinoless double-β decay would have changed our view of the Universe.
By reanalyzing the distribution of active protons in nuclei, researchers found a possible solution to a particle physics puzzle involving quarks.
Nuclear physicists find evidence of superradiant states by looking at the alpha decay of excited states in mirror nuclei.
New measurements at RHIC provide evidence for quark ‘deconfinement’ and insight into the unimaginable temperature of the hottest matter on Earth.
Calculations predict the temperature at which bottomonium melts in the hot matter created in heavy ion collisions.
Researchers have resolved a longstanding puzzle in theoretical calculations for heavy ion and electron-ion collision experiments.
Data on protons emitted from wide range of gold-gold collision energies shows absence of a quark-gluon plasma (QGP) at the lowest energy.
Theorists find new electromagnetic effects that shift the spin-dependent coupling of the nucleon to the weak force and point out the implications for new physics in beta decay.
Scientists test nuclear theory models in mid-sized nuclei using high resolution Indium-115 decay data.
New calculations provide insights into the dynamics of the chiral magnetic effect in heavy ion collisions.
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